CN104516582A - Method of controlling mouse through touch panel - Google Patents

Abstract

The invention relates to a method of controlling a mouse through a touch panel. The method includes the steps of S11 detecting a touch signal through the touch panel and commencing step S12 when the touch signal is detected; S12 forming a dynamic unlocking area around a touch point; S13 detecting a touch signal in the dynamic unlocking area, commencing step S14 when the disappearance of the touch signal is detected, and forming a clicking unlocking area around the touch point before the disappearance of the touch signal is detected; S14 detecting a touch signal within a time threshold, commencing step S15 when the situation that the position of the touch point of the touch signal is in the current dynamic unlocking area is detected again, and returning to perform step S11 when the touch signal is not detected within the time threshold; S15 determining the position of the touch point of the touch signal detected again is in the clicking unlocking area or not, performing a mouse clicking function and returning to perform step S12 if the input of a clicking signal is determined, and returning to perform step S12 if no clicking is determined.

Description

By the method for Trackpad mouse beacon

Technical field

The present invention relates to a kind of by Trackpad computer for controlling mouse calibration method, particularly relate to a kind of method being controlled mouse of notebook computer by large area Trackpad.

Background technology

Notebook computer (Note Book) enjoys user to like because of easy to carry.Carry out mouse beacon by arranging Trackpad (Touch Pad) on notebook computer, be then more convenient for the use of user.

But the area of the Trackpad of existing notebook computer is usually smaller, and is arranged at the centre position below keyboard, therefore, user uses touch space during Trackpad mouse beacon to be restricted.If the area of Trackpad is constantly expanded, then cause maloperation because the positions such as wrist in the process of the Fingertip touch of user are easy to touch Trackpad, thus make troubles to user.

Summary of the invention

In view of this, necessary provide a kind of can avoid maloperation control the method for mouse of notebook computer by large area Trackpad.

By a method for Trackpad mouse beacon, comprise the following steps:

S11, utilizing Trackpad to start to detect touch signal, entering step S12 when detecting touch signal;

S12, starts dynamic unlocking, forms a dynamic unlocking region, can realize mobile slide-mouse function around described touch point in this dynamic unlocking region;

S13, detects the touch signal in described dynamic unlocking region, and described click release region along with the mobile real-time change of position, touch point, enters step S14 when detecting touch signal and disappearing together with dynamic unlocking region; Further, detecting startup click unblock before touch signal disappears, around described touch point, form one click release region, described click release region is positioned at described dynamic unlocking region;

S14, detects touch signal in a time threshold, enters step S15 when the position, touch point again detecting touch signal is positioned at current dynamic unlocking region, returns step S11 when not detecting touch signal in a time threshold; And

S15, judges that the position, touch point again detecting touch signal is whether in described click release region, if be judged as inputting click signal, perform mouse click function and also return step S12, otherwise be judged as not clicking and return step S12.

By a method for Trackpad mouse beacon, comprise the following steps:

S11, utilizing Trackpad to start to detect touch signal, entering step S12 when detecting touch signal;

S12, starts dynamic unlocking, forms a dynamic unlocking region, can realize mobile slide-mouse function around touch point in this dynamic unlocking region;

S13, detects the touch signal in described dynamic unlocking region, and described dynamic unlocking region, along with the mobile real-time change of position, touch point, enters step S14 when detecting touch signal and disappearing;

S14, detects touch signal in a time threshold, enters step S15 when again detecting touch signal, returns step S11 when not detecting touch signal in a time threshold;

S15, step S16 is entered when the position, touch point again detecting touch signal is positioned at current dynamic unlocking region, when the position, touch point of the touch signal again detected in described time threshold is not in current dynamic unlocking region, is identified as and do not touch; And

S16, whether the spacing of the position, touch point that the position, touch point judging again to detect touch signal and touch signal before disappear is less than or equal to a distance threshold, if be judged as inputting click signal, perform mouse click function and return step S12, otherwise be judged as not clicking and return step S12.

Compared with prior art, the mouse calibration method being controlled notebook computer by large area Trackpad provided by the invention, around touch point, form a dynamic unlocking region owing to starting dynamic unlocking, both can avoid maloperation, user can be made again to have larger touch experiencing Space.

Accompanying drawing explanation

Fig. 1 is the structural representation of the notebook computer that the embodiment of the present invention adopts.

The process flow diagram being controlled the method for mouse of notebook computer by large area Trackpad that Fig. 2 provides for first embodiment of the invention.

Fig. 3-4 is the structural representation of first embodiment of the invention startup dynamic unlocking formative dynamics release region around touch point.

Fig. 5 is that first embodiment of the invention moves slide-mouse, and dynamic unlocking region is moved with touch point and the structural representation of movement.

Fig. 6-7 be first embodiment of the invention touch point when Trackpad edge, the structural representation of formative dynamics release region.

Fig. 8 is that first embodiment of the invention finger leaves Trackpad, starts to click unlock and around described touch point, form the structural representation that clicks release region.

The process flow diagram being controlled the method for mouse of notebook computer by large area Trackpad that Fig. 9 provides for second embodiment of the invention.

The process flow diagram being controlled the method for mouse of notebook computer by large area Trackpad that Figure 10 provides for third embodiment of the invention.

Figure 11 is that third embodiment of the invention finger touches starting region with the structural representation of exterior domain.

Figure 12 is that third embodiment of the invention finger touches starting region, starts the structural representation of dynamic unlocking formative dynamics release region around touch point.

Figure 13 is that third embodiment of the invention moves slide-mouse, and dynamic unlocking region is moved with touch point and the structural representation of movement.

The process flow diagram being controlled the method for mouse of notebook computer by large area Trackpad that Figure 14 provides for fourth embodiment of the invention.

The process flow diagram being controlled the method for mouse of notebook computer by large area Trackpad that Figure 15 provides for fifth embodiment of the invention.

The process flow diagram being controlled the method for mouse of notebook computer by large area Trackpad that Figure 16 provides for sixth embodiment of the invention.

The process flow diagram being controlled the method for mouse of notebook computer by large area Trackpad that Figure 17 provides for seventh embodiment of the invention.

The process flow diagram being controlled the method for mouse of notebook computer by large area Trackpad that Figure 18 provides for eighth embodiment of the invention.

Main element symbol description

Notebook computer	10
		Trackpad	12
Touch point	120
		Dynamic unlocking region	122
Straight line	1220
		Click release region	124
Non-locking region	126
		Boundary line	128
Display screen	14
		Main frame	16
Keyboard	18

Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Embodiment

Below with reference to the method being controlled mouse of notebook computer by large area Trackpad that the accompanying drawing detailed description embodiment of the present invention provides.Be appreciated that and be provided by the inventionly not limited to notebook computer by large area Trackpad computer for controlling mouse calibration method, also may be used for other computer installations, as game machine, learning machine etc.The embodiment of the present invention only illustrates for notebook computer.

Refer to Fig. 1, the notebook computer 10 that the embodiment of the present invention adopts comprises Trackpad 12 and the keyboard 18 that display screen that a main frame 16, is connected with this main frame 16 14 and is arranged at this main frame 16 1 surface.

Described Trackpad 12 is a large area Trackpad.In this manual, so-called " large area Trackpad " refers to that this Trackpad 12 is greater than the distance between staff middle fingertip to wrist at the yardstick of a direction, now when the Fingertip touch Trackpad 12 of user, the positions such as the wrist of user are easy to touch Trackpad 12 and cause maloperation.Particularly, described Trackpad 12 size and dimension can root its need select.Preferably, described Trackpad 12 is rectangle, and its length is 25 centimetres ~ 40 centimetres, and width is 6 centimetres ~ 12 centimetres.Described Trackpad 12 extends to another side by a side of main frame 16, and covers the surface of whole described main frame 16 with described keyboard 18, thus makes this Trackpad 12 have larger area, handled easily.In the present embodiment, described Trackpad 12 is rectangle, and its length is 32 centimetres, and width is 8 centimetres.The length direction of described Trackpad 12 is defined as X-direction, and Width is defined as Y-direction.In addition, described Trackpad 12 is not limited to said circumstances with the setting position of keyboard 18, and left-right situs also can be adopted to arrange.Described Trackpad 12 can use situation design according to reality with the setting position of keyboard 18.

See also Fig. 2 to Fig. 8, the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that first embodiment of the invention provides comprises the following steps:

S11, utilizing Trackpad 12 to start to detect touch signal, entering step S12 when detecting touch signal;

S12, starts dynamic unlocking, forms a dynamic unlocking region 122, can realize mobile slide-mouse function around touch point in this dynamic unlocking region 122;

S13, detects the touch signal in described dynamic unlocking region 122, and described dynamic unlocking region 122, along with the mobile real-time change of position, touch point 120, enters step S14 when detecting touch signal and disappearing;

S14, starts and clicks unblock, and around the position, touch point 120 that described touch signal disappears, form one click release region 124, this click release region 124 is positioned at described dynamic unlocking region 122 scope;

S15, detects touch signal in a time threshold, enters step S16 when again detecting touch signal, returns step S11 when not detecting touch signal in a time threshold;

S16, step S17 is entered when the position, touch point 120 again detecting touch signal is positioned at current dynamic unlocking region 122, when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122, is identified as and do not touch; And

S17, judges that the position, touch point 120 again detecting touch signal is whether in described click release region 124, if be judged as inputting click signal, perform mouse click function and also return step S12, otherwise be judged as not clicking and return step S12.

In above-mentioned steps S11, the method that described Trackpad 12 is detected is relevant with the principle of work of this Trackpad 12, can be condenser type, resistance-type, infrared type etc.The Trackpad 12 of the present embodiment is a capacitive touch screen, is detected by the change of detecting Trackpad 12 surface capacitance.In described step S11, the repeating said steps S11 when not detecting touch signal.

In above-mentioned steps S12, described startup dynamic unlocking is realized by software.So-called formative dynamics release region 122 refers to only the touch signal in dynamic unlocking region 122 and mouse be moved connect thus realize mobile slide-mouse function, and the touch signal in other region beyond dynamic unlocking region 122 is identified as and does not touch, thus mouse can not be affected move.Like this, even if maloperation also can not be caused in the region that the positions such as the wrist of user touch beyond Trackpad 12 dynamic unlocking region 122.

Be appreciated that described dynamic unlocking region 122 size and dimension can root its need select.Rectangle, square or border circular areas that described dynamic unlocking region can be is geometric center with touch point 120 also can be axis of symmetry with place, described touch point 120 straight line rectangle, square or border circular areas.As shown in Figure 3, described dynamic unlocking region 122 is the square area defined for geometric center with described touch point 120.As shown in Figure 4, described dynamic unlocking region 122 can be the square region defined for axis of symmetry along the straight line 1220 of Y-direction extension with place, described touch point 120.Described dynamic unlocking region 122 is not limit, as long as described touch point 120 is positioned at described dynamic unlocking region 122 with the position relationship of described touch point 120.In the present embodiment, described Trackpad 12 is cut out 1/4th regions as dynamic unlocking region 122 along Y-direction.That is, this dynamic unlocking region 122 is square, and its length of side is 8 centimetres.

In above-mentioned steps S13, described dynamic unlocking region 122 is along with the mobile real-time change of position, touch point 120, that is, the position in this dynamic unlocking region 122 is determined according to the position of touch point 120.As shown in Figure 5, when user carries out mobile slide-mouse, described touch point 120 moves formation one displacement in the direction of the arrow, and now, described dynamic unlocking region 122 is also moved.Dashed rectangle in Fig. 5 is original position, described dynamic unlocking region 122, and dashed circle is original position, described touch point 120.

Be appreciated that as long as described touch point 120 is moved, this dynamic unlocking region 122 is with regard to movement when described dynamic unlocking region 122 is for square area define for geometric center with described touch point 120 as shown in Figure 3.When described dynamic unlocking region 122 is the square region defined along the straight line 1220 that Y-direction extends for axis of symmetry with place, described touch point 120 as shown in Figure 4, if touch point 120 is moved in X direction, then this dynamic unlocking region 122 is also moved in X direction, if touch point 120 is moved along Y, then this dynamic unlocking region 122 is motionless.

As shown in Figure 6, in the present embodiment, when described touch point 120 is near the edge of Trackpad 12 width, and the distance at distance edge is less than the half of the yardstick L that described dynamic unlocking region 122 is gone up in X direction, cannot be the dynamic unlocking region 122 that geometirc symmetry axis defines original size on Trackpad 12 along the straight line 1220 that Y-direction extends with place, described touch point 120.Now, the invention provides two kinds of solutions, one is as shown in Figure 6, Trackpad 12 defines and the boundary line 128 that be positioned at apart from widthwise edges L/2 position parallel with Y-direction, when described touch point 120 is between this boundary line 128 and widthwise edges of Trackpad 12, all with the widthwise edges of Trackpad 12 for limit defines the dynamic unlocking region 122 identical with original size on Trackpad 12, namely, as long as described touch point 120 is between this boundary line 128 and widthwise edges of Trackpad 12, described dynamic unlocking region 122 is identical or overlap.Another kind is as shown in Figure 7, when described touch point 120 is between this boundary line 128 and widthwise edges of Trackpad 12, partial dynamic release region 122 is defined in beyond Trackpad 12, namely, the actual dynamic unlocking region 122 be positioned on Trackpad 12 reduces, and described touch point 120 is the closer to the edge of Trackpad 12 width, the actual dynamic unlocking region 122 be positioned on Trackpad 12 is less.When described touch point 120 is positioned at the edge of Trackpad 12 width, the actual dynamic unlocking region 122 be positioned on Trackpad 12 becomes the half of original yardstick.

In above-mentioned steps S14, as shown in Figure 8, so-called formation is clicked release region 124 and to refer to around described touch point 120 and to be positioned at the less region of described dynamic unlocking region 122 scope definition one, and this notebook computer 10 can be made to perform corresponding click function when this region is clicked or double-clicked to finger.Described click release region 124 is less than dynamic unlocking region 122.Be appreciated that described click release region 124 size and dimension can root its need select.Preferably, described click release region 124 is a square centered by touch point 120 or circle.In the present embodiment, described click release region 124 is square, and its length of side is 2 centimetres.

In above-mentioned steps S15, the so-called dynamic unlocking region 122 detected in a time threshold when touch signal refers to that described touch signal disappears keep one specific time interruption, this time period can rule of thumb set, as 2 seconds ~ 5 seconds.If this Trackpad 12 does not detect any touch signal in time threshold, then return step S11.If this Trackpad 12 detects touch signal again in time threshold, then enter step S16.In the present embodiment, described time threshold is 2 seconds, and that is, after finger leaves Trackpad 12, this dynamic unlocking region 122 keeps 2 seconds.

In above-mentioned steps S16, be identified as when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122 and do not touch, namely return step S15 and continue to survey touch signal.

In above-mentioned steps S17, after returning step S12, user can proceed next round slide-mouse or clicking operation.

See also Fig. 9, the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that second embodiment of the invention provides comprises the following steps:

S21, utilizing Trackpad 12 to start to detect touch signal, entering step S22 when detecting touch signal;

S22, starts dynamic unlocking, forms a dynamic unlocking region 122, can realize mobile slide-mouse function around touch point in this dynamic unlocking region 122;

S23, detects the touch signal in described dynamic unlocking region 122, and described dynamic unlocking region 122, along with the mobile real-time change of position, touch point 120, enters step S24 when detecting touch signal and disappearing;

S24, starts and clicks unblock, and around the position, touch point 120 that described touch signal disappears, form one click release region 124, this click release region 124 is positioned at described dynamic unlocking region 122 scope;

S25, detects touch signal in a time threshold, enters step S26 when again detecting touch signal, returns step S21 when not detecting touch signal in a time threshold;

S26, enter step S27 when the position, touch point 120 again detecting touch signal is positioned at current dynamic unlocking region 122, return step S21 when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122; And

S27, judges that the position, touch point 120 again detecting touch signal is whether in described click release region 124, if be judged as inputting click signal, perform mouse click function and also return step S22, otherwise be judged as not clicking and return step S22.

It is substantially identical that what the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that second embodiment of the invention provides and first embodiment of the invention provided control the mouse calibration method of notebook computer 10 by large area Trackpad 12, its difference is, in the present embodiment step S26, return step S21 when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122, instead of return step S25.

See also Figure 10 to Figure 13, the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that third embodiment of the invention provides comprises the following steps:

S31, utilizes Trackpad 12 to start to detect touch signal, and the presumptive area presetting described Trackpad 12 is non-locking region 126, enters step S32 when the position, touch point 120 of initial touch signal is positioned at this non-locking region 126;

S32, starts dynamic unlocking, forms a dynamic unlocking region 122, can realize mobile slide-mouse function around touch point in this dynamic unlocking region 122;

S33, detects the touch signal in described dynamic unlocking region 122, and described dynamic unlocking region 122, along with the mobile real-time change of position, touch point 120, enters step S34 when detecting touch signal and disappearing;

S34, starts and clicks unblock, and around the position, touch point 120 that described touch signal disappears, form one click release region 124, this click release region 124 is positioned at described dynamic unlocking region 122 scope;

S35, detects touch signal in a time threshold, enters step S36 when again detecting touch signal, returns step S31 when not detecting touch signal in a time threshold;

S36, step S37 is entered when the position, touch point 120 again detecting touch signal is positioned at current dynamic unlocking region 122, when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122, is identified as and do not touch; And

S37, judges that the position, touch point 120 again detecting touch signal is whether in described click release region 124, if be judged as inputting click signal, perform mouse click function and also return step S32, otherwise be judged as not clicking and return step S32.

It is substantially identical that what the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that third embodiment of the invention provides and first embodiment of the invention provided control the mouse calibration method of notebook computer 10 by large area Trackpad 12, its difference is, in the present embodiment, the presumptive area that described step S31 comprises default described Trackpad 12 is further non-locking region 126, step S32 is entered when the position, touch point 120 of initial touch signal is positioned at this non-locking region 126, otherwise be identified as and do not touch, repeat step S31.

In above-mentioned steps S31, as shown in figure 11, the size in described non-locking region 126, shape and position can set as required.Preferably, described non-locking region 126 is positioned at the central area of described Trackpad 12.In the present embodiment, described non-locking region 126 be this Trackpad 12 along its length and be positioned at 1/3rd regions in centre position.If point the region touched beyond non-locking region 126, then dynamic unlocking can not be started.Because user is when using keyboard, the region in this Trackpad 12 centre position is not easy to be touched, and the region on Trackpad 12 both sides is easy to be touched by wrist, and therefore, the present embodiment can effectively avoid user to move at use keyboard mistiming operating mouse.If user needs rolling mouse, as long as touch from non-locking region 126.

See also Figure 14, the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that fourth embodiment of the invention provides comprises the following steps:

S41, utilizes Trackpad 12 to start to detect touch signal, and the presumptive area presetting described Trackpad 12 is non-locking region 126, enters step S42 when the position, touch point 120 of initial touch signal is positioned at this non-locking region 126;

S42, starts dynamic unlocking, forms a dynamic unlocking region 122, can realize mobile slide-mouse function around touch point in this dynamic unlocking region 122;

S43, detects the touch signal in described dynamic unlocking region 122, and described dynamic unlocking region 122, along with the mobile real-time change of position, touch point 120, enters step S44 when detecting touch signal and disappearing;

S44, starts and clicks unblock, and around the position, touch point 120 that described touch signal disappears, form one click release region 124, this click release region 124 is positioned at described dynamic unlocking region 122 scope;

S45, detects touch signal in a time threshold, enters step S46 when again detecting touch signal, returns step S41 when not detecting touch signal in a time threshold;

S46, enter step S47 when the position, touch point 120 again detecting touch signal is positioned at current dynamic unlocking region 122, return step S41 when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122; And

S47, judges that the position, touch point 120 again detecting touch signal is whether in described click release region 124, if be judged as inputting click signal, perform mouse click function and also return step S42, otherwise be judged as not clicking and return step S42.

It is substantially identical that what the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that fourth embodiment of the invention provides and third embodiment of the invention provided control the mouse calibration method of notebook computer 10 by large area Trackpad 12, its difference is, in the present embodiment step S46, return step S41 when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122, instead of return step S45.

Be appreciated that above-mentioned startup is clicked and unlock forms the step clicking release region 124 can detect the touch point 120 of touch signal again position whether whenever carrying out before the step of described click release region 124 in judgement.As long as guarantee the position, touch point 120 that judges again to detect touch signal whether when described click release region 124, this click release region 124 is formed.5th to the 7th embodiment will introduce this kind of situation below.

See also Figure 15, the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that fifth embodiment of the invention provides comprises the following steps:

S51, utilizing Trackpad 12 to start to detect touch signal, entering step S52 when detecting touch signal;

S52, starts dynamic unlocking, forms a dynamic unlocking region 122, can realize mobile slide-mouse function around touch point in this dynamic unlocking region 122;

S53, starts and clicks unblock, and around described touch point, form one click release region 124, this click release region 124 is positioned at described dynamic unlocking region 122 scope;

S54, detects the touch signal in described dynamic unlocking region 122, and described dynamic unlocking region 122 along with the mobile real-time change of position, touch point 120, enters step S55 when detecting touch signal and disappearing together with click release region 124;

S55, detects touch signal in a time threshold, enters step S56 when again detecting touch signal, returns step S51 when not detecting touch signal in a time threshold;

S56, step S57 is entered when the position, touch point 120 again detecting touch signal is positioned at current dynamic unlocking region 122, when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122, is identified as and do not touch; And

S57, judges that the position, touch point 120 again detecting touch signal is whether in described click release region 124, if be judged as inputting click signal, perform mouse click function and also return step S52, otherwise be judged as not clicking and return step S52.

It is substantially identical that what the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that fifth embodiment of the invention provides and first embodiment of the invention provided control the mouse calibration method of notebook computer 10 by large area Trackpad 12, its difference is, in the present embodiment, the described step S53 clicking unblock that starts carries out after the step S52 of described startup dynamic unlocking, and in described step S54, described dynamic unlocking region 122 with click the mobile real-time change along with position, touch point 120 together with release region 124.

Be appreciated that, in the present embodiment, in described step S54, if touch point 120 is moved in X direction, then this click release region 124 and dynamic unlocking region 122 also together with move in X direction, if touch point is moved along Y-direction, then this dynamic unlocking region 122 is motionless, and this click release region 124 still moves along Y-direction.

See also Figure 16, the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that sixth embodiment of the invention provides comprises the following steps:

S61, utilizing Trackpad 12 to start to detect touch signal, entering step S62 when detecting touch signal;

S62, starts and clicks unblock, forms one and click release region 124 around described touch point;

S63, starts dynamic unlocking, forms a dynamic unlocking region 122, can realize mobile slide-mouse function around click release region 124 in this dynamic unlocking region 122;

S64, detects the touch signal in described dynamic unlocking region 122, and described dynamic unlocking region 122 along with the mobile real-time change of position, touch point 120, enters step S65 when detecting touch signal and disappearing together with click release region 124;

S65, detects touch signal in a time threshold, enters step S66 when again detecting touch signal, returns step S61 when not detecting touch signal in a time threshold;

S66, step S67 is entered when the position, touch point 120 again detecting touch signal is positioned at current dynamic unlocking region 122, when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122, is identified as and do not touch; And

S67, judges that the position, touch point 120 again detecting touch signal is whether in described click release region 124, if be judged as inputting click signal, perform mouse click function and also return step S62, otherwise be judged as not clicking and return step S62.

It is substantially identical that what the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that sixth embodiment of the invention provides and first embodiment of the invention provided control the mouse calibration method of notebook computer 10 by large area Trackpad 12, its difference is, in the present embodiment, the described step S62 clicking unblock that starts carried out before the step S62 of described startup dynamic unlocking, and in described step S64, described dynamic unlocking region 122 with click the mobile real-time change along with position, touch point 120 together with release region 124.In described step S63, this click release region 124 is positioned at described dynamic unlocking region 122 scope.

See also Figure 17, the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that seventh embodiment of the invention provides comprises the following steps:

S71, utilizing Trackpad 12 to start to detect touch signal, entering step S72 when detecting touch signal;

S72, start to click simultaneously and unlock and dynamic unlocking, around described touch point formed one click release region 124 and and a dynamic unlocking region 122, this click release region 124 is positioned at described dynamic unlocking region 122 scope, and can realize mobile slide-mouse function in this dynamic unlocking region 122;

S73, detects the touch signal in described dynamic unlocking region 122, and described dynamic unlocking region 122 along with the mobile real-time change of position, touch point 120, enters step S74 when detecting touch signal and disappearing together with click release region 124;

S74, detects touch signal in a time threshold, enters step S75 when again detecting touch signal, returns step S71 when not detecting touch signal in a time threshold;

S75, step S76 is entered when the position, touch point 120 again detecting touch signal is positioned at current dynamic unlocking region 122, when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122, is identified as and do not touch; And

S76, judges that the position, touch point 120 again detecting touch signal is whether in described click release region 124, if be judged as inputting click signal, perform mouse click function and also return step S72, otherwise be judged as not clicking and return step S72.

It is substantially identical that what the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that seventh embodiment of the invention provides and first embodiment of the invention provided control the mouse calibration method of notebook computer 10 by large area Trackpad 12, its difference is, in the present embodiment, in described step S72, start to click simultaneously and unlock and dynamic unlocking, and in described step S73, described dynamic unlocking region 122 with click the mobile real-time change along with position, touch point 120 together with release region 124.

Be appreciated that the mouse calibration method controlling notebook computer 10 above by large area Trackpad 12 can not have special startup to click to unlock the step to form click release region 124 yet.8th embodiment will introduce this kind of situation below.

See also Figure 18, the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that eighth embodiment of the invention provides comprises the following steps:

S81, utilizing Trackpad 12 to start to detect touch signal, entering step S82 when detecting touch signal;

S82, starts dynamic unlocking, forms a dynamic unlocking region 122, can realize mobile slide-mouse function around touch point in this dynamic unlocking region 122;

S83, detects the touch signal in described dynamic unlocking region 122, and described dynamic unlocking region 122, along with the mobile real-time change of position, touch point 120, enters step S84 when detecting touch signal and disappearing;

S84, detects touch signal in a time threshold, enters step S85 when again detecting touch signal, returns step S81 when not detecting touch signal in a time threshold;

S85, step S86 is entered when the position, touch point 120 again detecting touch signal is positioned at current dynamic unlocking region 122, when the position, touch point 120 of the touch signal again detected in described time threshold is not in current dynamic unlocking region 122, is identified as and do not touch; And

S86, whether the spacing of the position, touch point 120 that the position, touch point 120 judging again to detect touch signal and touch signal before disappear is less than or equal to a distance threshold, if be judged as inputting click signal, perform mouse click function and return step S82, otherwise be judged as not clicking and return step S82.

It is substantially identical that what the mouse calibration method controlling notebook computer 10 by large area Trackpad 12 that eighth embodiment of the invention provides and first embodiment of the invention provided control the mouse calibration method of notebook computer 10 by large area Trackpad 12, its difference is, in the present embodiment, do not have special startup to click and unlock to form the step clicking release region 124, and in described step S86, whether whether the spacing of the position, touch point 120 disappeared by the position, touch point 120 that judges again to detect touch signal and touch signal is before less than or equal to a distance threshold to determine that this detects touch signal be again the action clicked.That is, release region 124 is circularly clicked for the center of circle forms one in the position, touch point 120 disappeared for radius and with described touch signal with described distance threshold.When the spacing of the position, touch point 120 disappeared when the position, touch point 120 and touch signal that again detect touch signal is less than or equal to this distance threshold, this touch point 120 again detecting touch signal is physically located in this circle and clicks in release region 124.This distance threshold is 1 centimetre ~ 2 centimetres.In the present embodiment, this distance threshold is 1.5 centimetres.

The mouse calibration method being controlled notebook computer 10 by large area Trackpad 12 provided by the invention, around touch point, a dynamic unlocking region 122 is formed owing to starting dynamic unlocking, both can avoid maloperation, user can be made again to have larger touch experiencing Space.

In addition, those skilled in the art can also do other change in spirit of the present invention, and certainly, these changes done according to the present invention's spirit, all should be included within the present invention's scope required for protection.

Claims (10)

1., by a method for Trackpad mouse beacon, comprise the following steps:

S11, utilizing Trackpad to start to detect touch signal, entering step S12 when detecting touch signal;

S12, starts dynamic unlocking, forms a dynamic unlocking region, can realize mobile slide-mouse function around described touch point in this dynamic unlocking region;

S13, detects the touch signal in described dynamic unlocking region, and described click release region along with the mobile real-time change of position, touch point, enters step S14 when detecting touch signal and disappearing together with dynamic unlocking region; Further, detecting startup click unblock before touch signal disappears, around described touch point, form one click release region, described click release region is positioned at described dynamic unlocking region;

S14, detects touch signal in a time threshold, enters step S15 when the position, touch point again detecting touch signal is positioned at current dynamic unlocking region, returns step S11 when not detecting touch signal in a time threshold; And

S15, judges that the position, touch point again detecting touch signal is whether in described click release region, if be judged as inputting click signal, perform mouse click function and also return step S12, otherwise be judged as not clicking and return step S12.

2. the method by Trackpad mouse beacon as claimed in claim 1, is characterized in that, the described step clicking unblock that starts was carried out before the step of described startup dynamic unlocking.

3. the method by Trackpad mouse beacon as claimed in claim 1, is characterized in that, the described step clicking unblock that starts is carried out after the step of described startup dynamic unlocking.

4. the method by Trackpad mouse beacon as claimed in claim 1, is characterized in that, the described step clicking unblock that starts is carried out together with the step of described startup dynamic unlocking.

5. the method by Trackpad mouse beacon as claimed in claim 1, it is characterized in that, described Trackpad is a rectangle Trackpad, and the length direction defining described Trackpad is X-direction, and Width is Y-direction; In described step S13, if touch point is moved in X direction, then this click release region and dynamic unlocking region also together with move in X direction, if touch point is moved along Y-direction, then this dynamic unlocking region is motionless, and this click release region moves along Y-direction.

6. the method by Trackpad mouse beacon as claimed in claim 1, is characterized in that, in described step S14, when the position, touch point of the touch signal again detected in described time threshold is not in current dynamic unlocking region, is identified as and do not touch.

7. the method by Trackpad mouse beacon as claimed in claim 1, is characterized in that, in described step S14, when the position, touch point of the touch signal again detected in described time threshold is not in current dynamic unlocking region, return step S12.

8. the method by Trackpad mouse beacon as claimed in claim 1, it is characterized in that, described time threshold is 2 seconds ~ 5 seconds; Described click release region is a square centered by touch point or circle.

9., by a method for Trackpad mouse beacon, comprise the following steps:

S11, utilizing Trackpad to start to detect touch signal, entering step S12 when detecting touch signal;

S12, starts dynamic unlocking, forms a dynamic unlocking region, can realize mobile slide-mouse function around touch point in this dynamic unlocking region;

S13, detects the touch signal in described dynamic unlocking region, and described dynamic unlocking region, along with the mobile real-time change of position, touch point, enters step S14 when detecting touch signal and disappearing;

S14, detects touch signal in a time threshold, enters step S15 when again detecting touch signal, returns step S11 when not detecting touch signal in a time threshold;

S15, step S16 is entered when the position, touch point again detecting touch signal is positioned at current dynamic unlocking region, when the position, touch point of the touch signal again detected in described time threshold is not in current dynamic unlocking region, is identified as and do not touch; And

S16, whether the spacing of the position, touch point that the position, touch point judging again to detect touch signal and touch signal before disappear is less than or equal to a distance threshold, if be judged as inputting click signal, perform mouse click function and return step S12, otherwise be judged as not clicking and return step S12.

10. the method by Trackpad mouse beacon as claimed in claim 9, it is characterized in that, described distance threshold is 1 centimetre ~ 2 centimetres.